BioMed Central Page 1 of 9 (page number not for citation purposes) Implementation Science Open Access Research article Can't do it, won't do it! Developing a theoretically framed intervention to encourage better decontamination practice in Scottish dental practices Debbie Bonetti* 1 , Linda Young 2 , Irene Black 2 , Heather Cassie 1 , Craig R Ramsay 3 and Jan Clarkson 1 Address: 1 Dental Health Services Research Unit, University of Dundee, MacKenzie Building, Kirsty Semple Way, Dundee, DD2 4BF, UK, 2 National Health Service Education for Scotland (NES), Dundee Dental Education Centre, Small's Wynd, Dundee, DD1 4HN, UK and 3 Health Services Research Unit, Health Services Building, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, UK Email: Debbie Bonetti* - d.bonetti@chs.dundee.ac.uk; Linda Young - linda.young@nes.scot.nhs.uk; Irene Black - Irene.Black@nes.scot.nhs.uk; Heather Cassie - hcassie@chs.dundee.ac.uk; Craig R Ramsay - c.r.ramsay@abdn.ac.uk; Jan Clarkson - j.e.clarkson@chs.dundee.ac.uk * Corresponding author Abstract Background: Guidance on the cleaning of dental instruments in primary care has recently been published. The aims of this study are to determine if the publication of the guidance document was enough to influence decontamination best practice and to design an implementation intervention strategy, should it be required. Methods: A postal questionnaire assessing current decontamination practice and beliefs was sent to a random sample of 200 general dental practitioners. Results: Fifty-seven percent (N = 113) of general dental practitioners responded. The survey showed large variation in what dentists self-reported doing, perceived as necessary or practical to do, were willing to do, felt able to do, as well as what they planned to change. Only 15% self-reported compliance with the five key guideline-recommended individual-level decontamination behaviours; only 2% reported compliance with all 11 key practice-level behaviours. The results also showed that our participants were almost equally split between dentists who were completely unmotivated to implement best decontamination practice or else highly motivated. The results suggested there was scope for further enhancing the implementation of decontamination guidance, and that an intervention with the greatest likelihood of success would require a tailored format, specifically targeting components of the theory of planned behaviour (attitude, perceived behavioural control, intention) and implementation intention theory (action planning). Conclusion: Considerable resources are devoted to encouraging clinicians to implement evidence-based practice using interventions with erratic success records, or no known applicability to a specific clinical behaviour, selected mainly by means of researchers' intuition or optimism. The methodology used to develop this implementation intervention is not limited to decontamination or to a single segment of primary care. It is also in accordance with the preliminary stages of the framework for evaluating complex interventions suggested by the medical research council. The next phases of this work are to test the intervention feasibility and evaluate its effectiveness in a randomised control trial. Published: 5 June 2009 Implementation Science 2009, 4:31 doi:10.1186/1748-5908-4-31 Received: 22 July 2008 Accepted: 5 June 2009 This article is available from: http://www.implementationscience.com/content/4/1/31 © 2009 Bonetti et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0 ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 2 of 9 (page number not for citation purposes) Background It is estimated that in excess of 180 million instruments are re-processed in Scottish general dental practices per annum [1]. Decontamination is the combination of proc- esses (including washing, disinfection, and sterilization) employed to make re-usable items safe for handling by users and for use on patients. Inadequately decontami- nated instruments increase the risk of transmission of bac- terial, viral, and fungal infections to both users and patients, including Methicillin Resistant Staphylococcus aureus, HIV, hepatitis B, hepatitis C, and variant Creut- zfeldt-Jakob Disease [1-4]. In May 2007, the Scottish Den- tal Clinical Effectiveness Programme (SDCEP) published guidance on the cleaning of dental instruments specifi- cally for dental teams working in primary care [5]. However, it is well documented that the translation of guideline recommendations into clinical practice can be a haphazard process [6-8]. The first aim of this study was to determine if the publication of the guidance document was enough to encourage the implementation of best decontamination practice. Although the funding limits of this study precluded examining what dentists were actu- ally doing, it was posited that a gap between self-reported current and best decontamination practice, accompanied by a lack of plan to change current practice, would suggest that further intervention to encourage the implementa- tion of best decontamination practice was needed. The second aim of this study was to design an implemen- tation intervention strategy, should it be required. Strate- gies employed to encourage the implementation of other guidelines have been aimed at individuals (e.g. audit and feedback, reminders, outreach visiting), organisation of care (e.g. case management, revision of roles, continuous quality improvement), and financial and regulatory incentives. However, these implementation interventions and their development tend to be sketchily described, and similar strategies have resulted in a range of effect sizes [9- 11]. This makes it extremely difficult to choose or replicate interventions. Literature reviews suggest that the main problem in this area may be a lack of understanding or description of the mechanism by which these interventions are achieving their effect [12-15]. Because implementing guidelines often require clinicians to change their behaviour, it may be helpful to base interventions on explanatory frame- works explicitly concerned with behaviour change. Psy- chological frameworks explain behaviour in terms of predictive beliefs that can be influenced, as well as meth- ods for measuring and influencing them. In effect, they provide a means of focusing the design of an intervention and include an explanation of how it will work. One such model is the theory of planned behaviour (TPB) [16,17]. In the TPB, the main components proposed to influence behaviour are: motivation to perform a behav- iour (behavioural intention), perceived behavioural con- trol (PBC, assessed in terms of perceived difficulty of performing the behaviour), attitude toward the behav- iour, and perceptions of social pressure to perform the behaviour (subjective norm). The TPB predicts an individ- ual is more likely to follow best decontamination practice if they intend to do so, and that they are more likely to intend to do so if they believe that they are able to over- come likely barriers (high PBC), if they think that doing so will result in consequences that they value (positive attitude), and if they believe that other people they respect want them to (positive subjective norm). These variables are all modifiable and so provide the possible targets of an intervention based on this model. Nevertheless, while this model has successfully predicted other evidence-based dental behaviours [18,19], it is not known if its compo- nents are sensitive to decontamination practice, and so if it is an appropriate one to use as the basis of an interven- tion to influence the implementation of the decontamina- tion guidance. This study explored this issue in order to inform the implementation intervention strategy develop- ment. Methods This was a cross-sectional study. Participants were general dental practitioners (GDPs) across Scotland. Data collec- tion was by postal survey. The Scottish Multicentre Research Ethics Committee considered the study as a den- tal service audit and ethical approval was not required. Measures Primary outcome measure: decontamination practice A list of behaviours (Table 1), derived from the SDCEP guidance document as essential to best decontamination practice, was developed in consultation with members of the committee involved in developing the SDCEP guid- ance material, National Health Service Education for Scot- land (NES) personnel involved in delivering post- graduate decontamination education courses and aca- demic dentists from the University of Dundee involved in primary care dental research. Because the list included behaviours that could only be performed by the dentist, as well as behaviours that could be performed by anyone in the dental practice, two subscales as well as a total meas- ure were assessed. 1. Behaviour GDP: Dentists were asked to self-report their current practice relating to five dentist-level behaviours (see Table 1) on a four-point scale ('What is your current decontamination practice? Do you rarely/never, some- times, usually, always'). Responses for each behaviour Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 3 of 9 (page number not for citation purposes) were dichotomized into two categories: 'always doing the behaviour' (always = 1) and 'not doing the behaviour' (rarely/never, sometimes, usually = 0), then summed to create a score out of five. 2. Behaviour Practice: Given the dentist has the final responsibility of the performance of practice-level behav- iours, we used certainty as a proxy for individual perform- ance, by asking them to report on a seven-point scale how sure they were that each of the 11 practice-level behav- iours were being performed ('In your practice how sure are you that Not at all Sure (1) Very Sure (7)). Responses for each behaviour were dichotomized into two catego- ries: 'very sure the behaviour is performed' (very sure (7) = 1) and 'not sure' (1 to 6 = 0), then summed to create a score out of 11. 3. Behaviour Overall: Behaviour GDP and behaviour prac- tice scores were summed to create a score out of 16. Higher scores denote better decontamination practice, in terms of more required behaviours being performed. Secondary outcome measures These measures follow theory operationalisation proto- cols [16,20]. Behavioural intention For each of the 16 decontamination behaviours, partici- pants were asked to respond on a seven-point scale to the following: How motivated are you to change your current practice in relation to ('Not at all' to 'Very Much'). 'Intention: GDP' was the mean score of items relating to the five dentist-level decontamination behaviours. 'Inten- tion: Practice' was the mean score of items relating to the practice-level decontamination behaviours. 'Intention: All' was the mean score of all items. Higher scores denote greater intention to perform best decontamination prac- tice. Attitude Attitude was assessed by asking participants to respond on seven-point scales to the following: 'How important; how necessary; and how practical are each of the following pro- cedures' ('important' to 'unimportant'; 'necessary' to 'not at all necessary'; 'practical' to 'not at all practical')'. 'Atti- tude: GDP' was the mean score of items relating to the dentist-level decontamination behaviours. 'Attitude: Prac- tice' was the mean score of items relating to the practice- level decontamination behaviours. 'Attitude: All' was the mean score of all the attitude items. Higher scores denote more positive attitude toward performing best decontam- ination practice. Perceived behavioural control (PBC) For each of the 16 decontamination behaviours, partici- pants were asked to respond on a seven-point scale to the following: How difficult is it to (difficult to not at all difficult). 'PBC: GDP' was the mean score of items relating to the dentist-level decontamination behaviours. 'PBC: Practice' was the mean score of items relating to the prac- tice-level decontamination behaviours. 'PBC: All' was the mean score of all PBC items. Higher scores denote higher perceived control over performing best decontamination practice. Plans to change current practice Dentists were asked whether they had plans in place to change their current practice in relation to the 16 outcome decontamination behaviours. Responses were dichot- Table 1: Outcome measure showing best decontamination practice behaviours derived from SDCEP Guidance document Dentist-level behaviours 1. Remove hand and wrist jewellery at the start of each session 2. Clean hands before putting on gloves 3. Change gloves before seeing each patient 4. Use single use items only once 5. Work in a clutter – free environment Practice-Level Behaviours (anyone in the practice may perform) 6. Decontamination equipment (e.g., Washer-disinfectors, ultrasonic cleaners, sterilizers) is used in accordance with the manufacturers' instructions 7. Testing of decontamination equipment takes place at the correct intervals 8. Decontamination activities take place in a dirty to clean workflow 9. The correct detergent is used for the cleaning method in use 10. All staff use suitable protective equipment 11. Equipment is transported to the decontamination area using a rigid, durable, leak-proof container that has a tight-fitting lid and is easy to clean and disinfect 12. Hand pieces are cleaned as specified by the manufacturers' instructions 13. Instruments are rinsed thoroughly following cleaning 14. Disposable, non-linting towels are used to dry instruments immediately after rinsing 15. All instruments are inspected with an illuminated magnifier every time after you clean 16. Written policies on cleaning instruments within the practice are followed Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 4 of 9 (page number not for citation purposes) omized into 'have plan' (score = 1) and 'no plan' (score = 0), and then summed. Higher scores denote more plans in place to change current practice. Procedure The development of the postal questionnaire was informed by 16 semi-structured, qualitative interviews (of approximately 35 minutes), which were conducted by tel- ephone with dentists randomly identified from the Scot- tish Dental Practice Based Research Network. The results are presented in Table 2. No one belief was mentioned by all participants. Only three dentists raised patient safety as an issue. All of the participants commented that they thought it would be generally be too difficult to fully implement best decontamination practice as cited in the guidance document. While 70% of participants thought that they may change something in their practice as a result of reading the guidance, there was little agreement about what they would change (<4). All participants thought they needed outside help, financial and or advice, to fully implement the guidance. A content analysis grouped all responses into TPB domains (see Table 2), and the results were validated by five independent judges (consisting of dentists and researchers unfamiliar with psychological models) achieving an outstanding index of inter-rater reliability of 80% [21]. Because no participant spontaneously identified any group or person as putting pressure on them to implement the guidance, subjective norm was not assessed in the postal questionnaire. A power calculation suggested that a minimum sample of 129 dentists was required to detect a difference in R- squared of 0.10 with significance level of 5% and 90% power for four predictor variables in a multiple regression equation [22]. Because previous surveys of this popula- tion suggested a likely response rate of approximately 60%, two-hundred questionnaires were sent to a random sample of dental practices throughout Scotland, identified from Practitioner Services Division (PSD) Management Information Dental Accounting System database. A reminder letter with a second questionnaire was sent to non-responders two weeks later. Four weeks later, a post- card reminder was sent to the remaining non-responders. Statistical analysis Statistical significance was based on two-sided tests with p ≤ 0.05 as the criterion. Measures were tested for internal consistency using Cronbach's alpha. The individual and Table 2: Identified barriers and facilitators of adhering to SDCEP decontamination guidance Interview Questions to identify Barriers 1. Are there any aspects of the SDCEP Guidance document that you think would be particularly challenging for you or your practice to implement? Why? 2. What do you feel are the disadvantages of the guidance (to you/your practice/to patients)? Responses N/16 Theory variable 1. Setting up a decontamination area (difficult to find space/costly) 10 PBC 2. Purchasing/storing approved cleaning equipment (expensive equipment/expensive and difficult to change practice layout) 10 PBC 3. Validation, testing and maintenance of cleaning equipment (don't know how, difficult to do) 8 PBC 4. Finding time required (difficult to find the time to follow procedures/reduces time for patient appointments) 7 PBC/Attitude 5. Difficult to follow Guidance material (needs more clarification) 7 PBC 6. Transportation of equipment from one area to another (difficult/unnecessary fuss) 6 PBC 7. Will result in staff being unhappy/Staff will be resistant 4 Attitude 8. Will be stressful to follow procedures 3 Attitude 9. Decontamination procedures are overkill 3 Attitude Interview Questions to identify Facilitators 3. What would help you put the SDCEP guidance into practice? 4. What do you feel are the advantages of the guidance to you/your practice/to patients? Responses N/16 Theory variable 1. Avoid legal implications (Inspectors would not shut down the practice; reduce patients reasons to sue) 7 Attitude 2. May increase patient's confidence in the practice (fulfilling standards) 6 Attitude 3. Patient safety will be enhanced 3 Attitude N/16 = Number of dentists out of the total 16 participants who expressed this belief; theory variables are from the theory of planned behaviour [19]; PBC = perceived behavioural control. Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 5 of 9 (page number not for citation purposes) practice-level subscales were to be combined into a single measure only if Cronbach's alpha exceeded 0.60. The rela- tionship between predictive and outcome variables were examined using Pearson correlations and multiple regres- sion analyses. Results Response rate and participants Out of the 200 questionnaires posted, three were returned as undeliverable. 113 dentists returned completed ques- tionnaire, giving a response rate of 57% (113/197). The final sample profile was: 70% male, qualified on average for 18 years (SD = 9.9), worked full time (mean (SD) ses- sions per week = 8.4 (2.2)), with an average practice list size of 4,532 (2,987). 12% were (or had been) a voca- tional trainer. Number of other dentists in the practice ranged from zero (N = 13) to 10 (N = 2). On average, there were two other dentists in the practice, four dental nurses, one hygienist, and one receptionist. The representativeness of the study participants was exam- ined by comparing their demographics with the available demographics of the 2006/07 Management Information Dental Accounting System database, which shows 60% of dentists were male and qualified on average for 18 yrs (this was calculated from the available information of: average age = 41/average age qualified = 23). Furthermore, the demographics of this sample was compared with an independent, randomly selected sample from the Scottish Dental Practice Board Register (N = 214) who participated in a postal study examining intra-oral radiograph ordering [19]. There were no significant differences in gender (χ 2 (1,323) = 0.18, p = 0.67); number of other practition- ers in their practice (t(1,317) = -0.10, p = 0.92); years qualified (t(1,319) = 0.28, p = 0.78); number of sessions worked per week (t(1,321) = -1.29, p = 0.19); or list size (t(1,266) = -0.65, p = 0.51). Should an implementation intervention be developed? No dentist reported complying with all 16 decontamina- tion behaviours. On average, dentists reported complying with 10 (SD = 3) decontamination behaviours. Only 15% (17/113) of dentists reported they were complying with all five key dentist-level behaviours. On average, dentists were complying with three (SD = 1) out of the five dentist- level behaviours. The least performed of these was work- ing in a clutter-free environment (Table 2). At the practice level, only 2% of dentists reported that they were sure that their practice was complying with all 11 key behaviours. On average, dentists reported that they were fairly to very sure that their practice was complying with seven (SD = 2) out of the 11 practice level behaviours. They were least sure about whether instruments were inspected under an illuminated magnifier (Table 3). Despite all 16 behaviours showing scope for compliance improvement, only one behaviour (changing gloves before seeing each patient) showed a match between the percentage of dentists who should be changing (percent- age currently not performing best practice) and the per- centage of dentists who planned to change their current practice (Table 3). Can the theory of planned behaviour (TPB) be applied to decontamination practice? Variables from the TPB were significantly correlated with dentist-level, practice-level and overall decontamination practice (Table 4). Intention was not correlated with decontamination behaviours and none of the attitude or perceived behavioural control measures were significantly correlated with an intention measure. Further investiga- tion revealed that the measure of intention had a severely bimodal distribution at the extremes (scores ≤2 or ≥6), with 57% of dentists reporting that they were very moti- vated to change their current decontamination practice in line with the guidance (scoring ≥4). When all variables that were significantly correlated with decontamination practice were entered into a stepwise regression analysis, attitude explained 36% of the variance in self-reported decontamination practice (Model 1, Table 5). The regression analysis was repeated for the individual attitude items. Two attitude items explained 30% of the variance in decontamination practice (Model 2, Table 5). The more necessary the dentists believed behaviours to be, the more behaviours they themselves performed. Also, how sure dentists were that decontamination behaviours were being performed in the practice was related to how practical they judged the behaviours to be. Discussion The results of the postal survey suggest that there is indeed scope for enhancing the implementation of the SDCEP guidance with a further intervention. Not a single partici- pant reported complying with the document in total. The discrepancy between self-report current practice and best decontamination practice, coupled with a compensating lack of plans to change (Table 3), further support the need for an intervention to encourage the implementation of the decontamination guidance in Scotland. The postal survey also provided support for the applicabil- ity of the TPB to decontamination behaviours. All but one of the theory components acted in line with theoretical predictions. Dentists who had a more positive attitude toward decontamination best practice reported perform- ing significantly more decontamination behaviours. Den- tists who perceived that they had more control over performing best practice, in terms of being able to over- Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 6 of 9 (page number not for citation purposes) come barriers, reported performing significantly more decontamination behaviours. These relationships held whether the outcomes and predictors were at the dentist level or the practice level. Although a significant correla- tion is not evidence of a causal relationship, it is a neces- sary precursor of one. In particular, the results suggest that increasing dentists' beliefs in the necessary and practical nature of decontamination behaviours may encourage their implementation of the guidance. Applying this the- oretical model to decontamination behaviours allowed the identification of these variables as possible mediators of decontamination best practice, providing likely targets for an implementation intervention. In contradiction to the theoretical expectation, the meas- ure of intention was neither significantly correlated with self-reported performance of decontamination behav- iours, nor was it associated with other variables in the the- ory. Despite its theory-driven operationalisation, it is possible that this was an artefact of asking about multiple behaviours, because the TPB is usually applied to predict- ing a single behaviour. Although this did not appear to be a problem for the other theory components, our intention measure may have been highly sensitive to this issue, par- ticularly if dentists viewed some of the decontamination behaviours as not under their volitional control (the TPB model explains behaviours within the control of the indi- vidual). This perception was apparent in the pilot study, where all participants stated that they needed outside help to fully implement the guidance. However, none of the recommended decontamination behaviours on the best practice list are, in reality, non-volitional. The erroneous perception that any of them are can be viewed as a barrier that could be addressed when targeting dentists' attitudes and perceptions of control. This suggests that the TPB can still be considered an appropriate model on which to base an intervention to influence decontamination best prac- tice. Table 3: Results of the Postal Survey (N = 113): Self-report current practice and plans to change current practice In your current infection control/decontamination practice, do you: Responses No (%) Do you plan to change? Yes (%) Remove hand and wrist jewellery at the start of each session 52% 22% Clean hands before putting on gloves 37% 14% Change gloves before seeing each patient 3% 3% Use single use items only once 16% 6% Work in a clutter – free environment 54% 18% In your practice are you sure that: Decontamination equipment is used in accordance with the manufacturers' instructions 19% 6% Testing of decontamination equipment takes place at the correct intervals 27% 10% Decontamination activities take place in a dirty to clean workflow 23% 9% The correct detergent is used for the cleaning method in use 19% 11% All staff use suitable protective equipment 34% 21% Equipment is transported using a rigid, durable, leak-proof container that has a tight-fitting lid and is easy to clean and disinfect 52% 22% Hand pieces are cleaned as specified by manufacturers' instructions 17% 10% Instruments are rinsed thoroughly following cleaning 18% 15% Disposable, non-linting towels are used to dry instruments immediately after rinsing 66% 26% All instruments are inspected with an illuminated magnifier every time after you clean 93% 22% Written policies on cleaning instruments within the practice are followed 30% 13% Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 7 of 9 (page number not for citation purposes) Nevertheless, a TPB- based intervention would focus on influencing pre-motivational elements related to behav- iour in generally unmotivated people. The bimodal distri- bution of intention at the extremes demonstrated that our sample of participants were almost equally split between dentists who were completely unmotivated to implement best decontamination practice or else highly motivated. This result suggests that targeting TPB components would only be the best strategy for half of our sample. If this rep- resents a true split in the larger population, then a differ- ent strategy is needed for dentists who were already very motivated to change their current decontamination prac- tice in line with the guidance. For this proportion of the population, it would be more appropriate to design an Table 4: Results of the Postal Survey: Descriptive statistics and Pearson Correlations showing beliefs predicting self-report current decontamination practice Measure Descriptive statistics Pearson Correlation Coefficients Alpha Range Mean (SD) Behaviour: GDP Behaviour: Practice Behaviour: Total Attitude: GDP 0.84 3–7 6.2 (0.8) 0.68*** 0.41*** 0.54*** Attitude: Practice 0.92 4–7 5.9 (0.7) 0.52*** 0.57*** 0.59*** Attitude: All 0.93 3–7 5.9 (0.7) 0.61*** 0.55*** 0.62*** PBC: GDP 0.67 1–7 6.0 (1.0) 0.49*** 0.33*** 0.43*** PBC: Practice 0.87 2–7 5.3 (1.2) 0.42*** 0.49*** 0.53*** PBC: All 0.88 2–7 5.5 (1.0) 0.46*** 0.50*** 0.56*** Intention: GDP 0.92 1–7 3.7 (2.3) 0.03 0.03 0.06 Intention: Practice 0.97 1–7 3.7 (2.1) 0.07 0.13 -0.13 Intention: All 0.97 1–7 3.7 (2.1) 0.05 0.09 -0.12 Possible score for all measures = 1 to 7; Alpha = Cronbach's alpha; Behaviour: GDP = Self reported current practice relating to five dentist-level decontamination behaviours from SDCEP guidance document; Behaviour: Practice = Self reported current practice relating to 11 practice-level decontamination behaviours from SDCEP guidance document; Behaviour: Total = Self reported current practice relating to all 16 decontamination behaviours (See Table 1);*p < 0.05;** p < 0.01; ***p < 0.001; The Cronbach's alpha for the outcome measures were: Behaviour:GDP = 0.36; Behaviour: Practice = 0.78; Behaviour: Total = 0.79 Table 5: Results of the explorative stepwise regression analyses identifying beliefs accounting for variance in performing decontamination behaviour Model 1: All Predictive Predictive Variables Entered B Beta Adj. R 2 df F Attitude: GDP, Attitude: Practice, PBC: GDP, PBC: Practice Attitude: Practice Attitude: GDP 1.75 1.10 0.41*** 0.26** 0.36 2,105 30.92*** Model 2: All elements of Attitude Predictive Variables Entered B Beta Adj. R 2 df F Important: GDP; Necessary: GDP, Practical: GDP, Important: Practice, Necessary: Practice, Practical: Practice Necessary: GDP Practical: Practice 1.56 0.80 0.38*** 0.28** 0.30 2,106 24.24*** B = Unstandardized coefficient; Beta = Standardized coefficient;* p < 0.05;** p < 0.01; ***p < 0.001 Dependent Variable: Self reported current decontamination practice relating to all 16 behaviours (Behaviour: Total) identified from the Behaviour Elicitation Study Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 8 of 9 (page number not for citation purposes) intervention using a model that focuses on post-motiva- tional elements, translating 'good' intentions into action. Implementation intention theory is just such a theory. In this model, the main component influencing behaviour is action planning. This theory proposes that the likelihood of performing a behaviour can be increased by making an explicit action plan about when and where you intend to perform it [22-26]. Action plans are not proposed to work by increasing motivation, as are attitude and perceived behavioural control in the TPB. They are proposed to work by setting up environmental cues to remind an indi- vidual to perform the behaviour. Repeatedly being per- formed in response to the cue increases the likelihood that a behaviour may become a 'good' habit. Like the TPB, implementation intention theory has been used to suc- cessfully influence the behaviour of individuals and has been specifically associated with other evidence-based dental behaviour in previous studies [19,27]. Some sup- port for including implementation theory in the design of an implementation intervention is provided by the nota- ble lack of plans in place to change decontamination behaviours (Table 3). This suggests that asking already motivated dentists to formulate action plans may encour- age a change in their current practice. In summary, it does appear that an implementation strat- egy is required to encourage the implementation of the decontamination guidance. It also appears that the strat- egy will need to account for both pre- and post-motiva- tional elements. There was some support for using the TPB to design a strategy to encourage motivation to imple- ment the guidance in a proportion of the population sam- pled. The results of the postal study also suggested that a complementary strategy may need to be incorporated into an intervention – one that uses action planning to encour- age the implementation of the guidance by dentists who were already motivated to do so, yet were not translating their intention into their practice. The results of the preliminary interviews suggested that it would be difficult to unravel what would specifically help even a small number of dentists overcome the barriers they raised to implementing the decontamination guid- ance. The postal study confirmed that there was also vari- ation in what the larger sample of dentists believed they should change, what they felt able to change, and what they were willing to change. These results provide some explanation of previous and current poor decontamina- tion practice. They also suggest that an intervention that has the greatest chance of influencing the implementation of decontamination behaviours will need to have a format elastic enough to consider the very disparate concerns, motivation, and behaviour of each dentist and practice. One way for this to be achieved is to design the interven- tion in the form of a 'tailored' support visit, where a researcher could assist the practice teams to identify behaviours from the decontamination list that they need to better implement. They could then use established methods to target theoretical variables. For example, tech- niques to enhance perceived behavioural control (chang- ing can't to can) are identifying and changing the external barriers and facilitators of behaviour, as well as increasing the individual's skills to overcome perceived barriers. Techniques to encourage a more positive attitude (chang- ing won't to want to) include providing information about behavioural consequences (e.g. risk), verbal persua- sion, and positive feedback in relation to specific decon- tamination behaviours. Techniques to help individuals formulate action plans (addressing the intention-behav- iour gap) include setting goals, creating an explicit under- taking about who, where, and when a specific decontamination behaviour will be performed, or miss- ing equipment will be purchased, as well as progress mon- itoring and the provision of social support. The cross-sectional nature of this research precludes con- clusions about cause and effect; therefore caution is war- ranted in making generalizations about how effective this intervention will be on actual practice. Also, it is possible that there may be a selection bias, with study participants only representative of dentists in Scotland – or even of dentists who participate in studies in Scotland – that may also influence the effectiveness of this intervention if more generally applied. Nevertheless, a major strength of this study is the qualitative preparatory research that went into the design of the questionnaire. In helping to create an outcome measure, stakeholders were impelled to iden- tify what the guidelines were asking all dentists in Scot- land to do – not just the dentists in our sample. Having greater clarity about what is required provides a means of assessment that is applicable beyond our study. The focus on psychological theory ignores possibly valuable other approaches, such as organisational, political, and eco- nomic incentives. Nevertheless, it also provides depth and focus that may be generalisable across different behav- iours as well as different populations, and takes advantage of decades of research specifically into the antecedents and methods of behaviour change. Conclusion Considerable resources are currently devoted to encourag- ing clinicians to implement evidence-based practice using interventions with erratic success records, or no known applicability to a specific clinical behaviour, selected mainly by means of researchers' intuition or optimism. Conducting a developmental survey enabled the identifi- cation of an intervention format, mechanism, and targets Implementation Science 2009, 4:31 http://www.implementationscience.com/content/4/1/31 Page 9 of 9 (page number not for citation purposes) with the greatest likelihood of success of increasing the implementation of decontamination guidance. The meth- odology used to develop this implementation interven- tion is not limited to the decontamination issue or to a single segment of primary care. This approach is in accord- ance with the preliminary stages of the framework for evaluating complex interventions suggested by the medi- cal research council [28]. The next phases of this work are to test the intervention feasibility and evaluate its effec- tiveness in a randomised control trial. Competing interests The authors declare that they have no competing interests. Authors' contributions DB contributed to the scientific development, analysis and interpretation of the study; authored drafts and approved the final version of the paper; LY and HC con- tributed to the scientific development, administration, analysis, interpretation of the study, and approved the final version of the paper; IB, CR, and JC contributed to the scientific development, conduct, analysis, interpreta- tion of the study, and approved the final version of the paper. Acknowledgements We would like to thank Jim Rennie, Alex Haig, Doug Stirling, Gillian Mac- kenzie and participating dentists. This study was funded by NHS Education for Scotland (NES). The HSRU is funded by the Chief Scientist Office of the Scottish Government Health Directorate. The views expressed are those of the authors and not necessarily those of the funding bodies. References 1. NHS Scotland: Sterile Services Provision review Group: Survey of Decontamination in General Dental Practice. 2004. 2. Kurita H, Kurashina K, Honda T: Nosocomial Transmission of Methicillin-Resistant Staphylococcus Aureus via the Surfaces of the Dental Operatory. BDJ 2006, 201:297-300. 3. CMO/CDO Letter: Important advice for dentists on re-use of endodontic instruments and variant Creutzfeldt-Disease (vCJD). CMO 2007. 4. Spongiform Encephalopathy Advisory Committee: Position State- ment on vCJD and Dentistry. 2007 [http://www.seac.gov.uk/ statements/state-vcjd-dentrstry.htm]. 5. Scottish Dental Clinical Effectiveness Programme: Cleaning of Den- tal Instruments – Dental Clinical Guidance. 2007. 6. Seddon ME, Marshall MN, Campbell SM, Roland MO: Systematic review of studies of quality of clinical care in general practice in the UK, Australia and New Zealand. QHC 2001, 10:152-158. 7. Schuster M, McGlynn E, Brook RH: How good is the quality of health care in the United States? Milbank Q 1998, 76:563. 8. Grol R: Improving the quality of medical care. Building bridges among professional pride, payer profit, and patient satisfaction. JAMA 2001, 286:2578-2585. 9. Bero LA, Grilli R, Grimshaw JM, Harvey E, Oxman AD, Thomson MA: Closing the gap between research and practice: an overview of systematic reviews of interventions to promote imple- mentation of research findings by health care professionals. BMJ 1998, 317:465-468. 10. NHS Centre for Reviews and Dissemination: Getting evidence into practice. Effect Health Care 1999, 5:1-16. 11. Grimshaw JM, Thomas RE, MacLennan G, Fraser C, Ramsay CR, Vale L, Whitty P, Eccles MP, Matowe L, Shirran E, Wensing M, Dijkstra R, Donaldson C: Effectiveness and efficiency of guideline dissem- ination and implementation strategies. Health Technol Assess 2004, 8(6):iii-iv. 12. Davies P, Walker A, Grimshaw J: Theories of behaviour change in studies of guideline implementation. Proceedings British Psy- chological Society 2003, 11:120. 13. Eccles M, Grimshaw J, Walker A, Johnston M, Pitts NB: Changing the behaviour of healthcare professionals: The use of theory in promoting the uptake of research findings. Journal of Clinical Epidemiology 2005, 58:107-112. 14. Eccles M, Hrisos S, Francis J, Kaner EF, O Dickinson H, Beyer F, John- ston M: Do self- reported intentions predict clinicians' behav- iour: A systematic review. Implementation Science 2006, 1:28. 15. Michie S, Abraham C: Interventions to Change Health Behav- iours: Evidence-Based or Evidence-Inspired? Psychology and Health 2004, 19:129-49. 16. Ajzen I: The theory of planned behaviour. Organizational Behav- iour and Human Decision Processes 1991, 50(2):179-211. 17. Hardeman W, Johnston M, Johnston D, Bonetti D, Wareham N, Kin- mouth A: Application of the Theory of planned behaviour in Behaviour Change Interventions: A systematic review. Psy- chology and Health 2002, 17(2):123-158. 18. Bonetti D, Johnston M, Pitts NB, Deery C, Ricketts I, Bahrami M, Ramsay C, Johnston J: Can psychological models bridge the gap between clinical guidelines and clinicians' behaviour? A ran- domised controlled trial of an intervention to influence den- tists' intention to implement evidence-based practice. Br Dent J 2003, 195(7):403-407. 19. Bonetti D, Pitts NB, Eccles M, Grimshaw J, Johnston M, Steen N, Shirran L, Thomas R, Maclennan G, Clarkson J, Walker A: Applying psychological theory to evidence-based clinical practice: Identifying factors predictive of taking intra-oral radio- graphs. Social Science and Medicine 2006, 63:1889-1899. 20. Francis J, Eccles M, Johnston M, Walker A, Grimshaw J, Foy R, Kaner E, Smith L, Bonetti D: Constructing questionnaires based on the theory of planned behaviour: A manual for health services researchers. Report to ReBEQI: Research Based Education and Quality Improvement 2004. 21. Landis JR, Koch GG: The Measurement of Observer Agree- ment for Categorical Data. Biometrics 1977, 33(1):159-174. 22. Gatsonis C, Sampson AR: Multiple Correlation: Exact Power and Sample Size Calculations. Psychological Bulletin 1989, 106:516-524. 23. Gollwitzer PM: Implementation Intentions: Strong Effects of Simple Plans. American Psychologist 1999, 54(7):493-503. 24. Sheeran P, Orbell S: Implementation intentions and repeated behavior: Augmenting the predictive validity of the theory of planned behavior. European Journal of Social Psychology 1999, 29:349-369. 25. Orbell S, Hodgkins S, Sheeran P: Implementation intentions and the theory of planned behavior. Personality and Social Psychology Bulletin 1997, 23:945-954. 26. Webb TL, Sheeran P: Identifying good opportunities to act: Implementation intentions and cue discrimination. European Journal of Social Psychology 2004, 34:407-419. 27. Bonetti D, Johnston M, Turner S, Clarkson J: Applying multiple models to predict clinicians' behavioural intention and objec- tive behaviour when managing children's teeth. Psychology and Health 2008:1-18. 28. Methods and Reporting, Developing, and evaluating com- plex interventions: The new Medical Research Council guid- ance. British Medical Journal 2008, 337:a1655. . Thomas R, Maclennan G, Clarkson J, Walker A: Applying psychological theory to evidence-based clinical practice: Identifying factors predictive of taking intra-oral radio- graphs. Social Science and. predicts an individ- ual is more likely to follow best decontamination practice if they intend to do so, and that they are more likely to intend to do so if they believe that they are able to over- come. disadvantages of the guidance (to you/your practice /to patients)? Responses N/16 Theory variable 1. Setting up a decontamination area (difficult to find space/costly) 10 PBC 2. Purchasing/storing